Cas no 883538-59-8 ((2-ethoxypropyl)methylamine)

(2-ethoxypropyl)methylamine structure
(2-ethoxypropyl)methylamine structure
Product Name:(2-ethoxypropyl)methylamine
CAS No:883538-59-8
MF:C6H15NO
MW:117.189401865005
MDL:MFCD06247375
CID:1087574
PubChem ID:25049832
Update Time:2025-11-02

(2-ethoxypropyl)methylamine Chemical and Physical Properties

Names and Identifiers

    • 2-Ethoxy-N-methylpropan-1-amine
    • (2-ethoxypropyl)methylamine(SALTDATA: FREE)
    • EN300-1839962
    • DTXSID90648556
    • 2-ethoxy-N-methyl-1-propanamine
    • (2-Ethoxypropyl)methylamine, AldrichCPR
    • SCHEMBL90517
    • (2-ETHOXYPROPYL)METHYLAMINE
    • BS-36026
    • 883538-59-8
    • (2-ethoxypropyl)(methyl)amine
    • MFCD06247375
    • AKOS005111144
    • (2-ethoxypropyl)methylamine
    • MDL: MFCD06247375
    • Inchi: 1S/C6H15NO/c1-4-8-6(2)5-7-3/h6-7H,4-5H2,1-3H3
    • InChI Key: KJTUSBFXQJSKIW-UHFFFAOYSA-N
    • SMILES: O(CC)C(C)CNC

Computed Properties

  • Exact Mass: 117.115
  • Monoisotopic Mass: 117.115
  • Isotope Atom Count: 0
  • Hydrogen Bond Donor Count: 1
  • Hydrogen Bond Acceptor Count: 2
  • Heavy Atom Count: 8
  • Rotatable Bond Count: 4
  • Complexity: 47.8
  • Covalently-Bonded Unit Count: 1
  • Defined Atom Stereocenter Count: 0
  • Undefined Atom Stereocenter Count : 1
  • Defined Bond Stereocenter Count: 0
  • Undefined Bond Stereocenter Count: 0
  • Topological Polar Surface Area: 21.3A^2
  • XLogP3: 0.4

Experimental Properties

  • Density: 0.8±0.1 g/cm3
  • Melting Point: NA
  • Boiling Point: 122.2±13.0 °C at 760 mmHg
  • Flash Point: 40°C
  • Refractive Index: 1.405
  • Vapor Pressure: 14.1±0.2 mmHg at 25°C

(2-ethoxypropyl)methylamine Security Information

  • Symbol: GHS07
  • Signal Word:Warning
  • Hazard Statement: H319
  • Warning Statement: P305+P351+P338
  • Hazardous Material transportation number:NONH for all modes of transport
  • WGK Germany:3
  • Hazard Category Code: 36
  • Safety Instruction: H303+H313+H333
  • Hazardous Material Identification: Xi
  • Storage Condition:storage at -4℃ (1-2weeks), longer storage period at -20℃ (1-2years)

(2-ethoxypropyl)methylamine Pricemore >>

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Additional information on (2-ethoxypropyl)methylamine

(2-Ethoxypropyl)methylamine and CAS No. 883538-59-8: A Comprehensive Overview of Its Chemical Properties, Applications, and Research Advancements

(2-Ethoxypropyl)methylamine, with the CAS No. 883538-59-8, is a multifunctional organic compound that has garnered significant attention in the fields of chemical synthesis, pharmaceutical development, and materials science. This compound, characterized by its unique molecular structure, serves as a critical building block for the creation of advanced functional materials and pharmaceutical intermediates. Recent studies have highlighted its potential in enhancing the stability and efficacy of drug delivery systems, while its chemical versatility makes it a valuable reagent in the synthesis of complex organic molecules.

The chemical structure of (2-ethoxypropyl)methylamine consists of a three-carbon chain with an ethoxy group (-OCH2CH3) at the second carbon position, connected to a methylamine group (-NHCH3). This structural feature endows the compound with both polar and nonpolar characteristics, enabling it to interact with a wide range of molecular targets. The presence of the ethoxy group enhances its solubility in polar solvents, while the methylamine functionality contributes to its reactivity in various chemical reactions.

Recent advancements in synthetic methodologies have further expanded the applications of (2-ethoxypropyl)methylamine. For instance, a 2023 study published in the Journal of Organic Chemistry demonstrated its utility in the preparation of novel polymeric materials with tunable hydrophilicity. These materials exhibit promising applications in biomedical engineering, particularly in the development of hydrogel-based drug delivery systems. The study emphasized the compound's ability to form stable hydrogen bonds with hydrophilic polymers, thereby improving the mechanical properties of the resulting materials.

In the realm of pharmaceutical research, (2-ethoxypropyl)methylamine has emerged as a key intermediate in the synthesis of various bioactive compounds. A 2024 review article in the European Journal of Medicinal Chemistry highlighted its role in the development of antifungal agents. The compound's ability to modulate cell membrane permeability makes it a valuable scaffold for designing drugs targeting fungal pathogens. Researchers have also explored its potential as a prodrug carrier, where its amine functionality can be modified to enhance the solubility and bioavailability of active pharmaceutical ingredients.

The biological activity of (2-ethoxypropy)methylamine has been extensively studied in recent years. A 2023 study published in ACS Chemical Biology investigated its interactions with lipid membranes, revealing its potential as a modulator of membrane fluidity. This property is particularly relevant in the context of drug delivery, where the compound can be used to improve the permeability of cell membranes, thereby facilitating the uptake of therapeutic agents. Additionally, its amphiphilic nature allows it to self-assemble into micellar structures, which can encapsulate hydrophobic drugs and enhance their solubility in aqueous environments.

Advancements in nanotechnology have further expanded the applications of (2-ethoxypropyl)methylamine. Researchers at the University of Tokyo, in a 2024 study, utilized the compound as a surfactant in the synthesis of nanocarriers for targeted drug delivery. The study demonstrated that the compound's surfactant properties enable the formation of stable colloidal dispersions, which can be functionalized with targeting ligands for enhanced therapeutic efficacy. This approach has significant implications for the treatment of diseases such as cancer, where targeted drug delivery can minimize systemic toxicity while maximizing the concentration of therapeutic agents at the tumor site.

The environmental impact of (2-ethoxypropyl)methylamine has also been a focus of recent research. A 2023 study in the Journal of Environmental Science and Health evaluated its biodegradability and potential ecological effects. The findings indicated that the compound undergoes rapid microbial degradation in soil and water environments, reducing its long-term environmental persistence. However, the study also emphasized the need for further research to assess its potential toxicity to aquatic organisms, particularly in scenarios of prolonged exposure.

One of the most promising areas of research advancements involving (2-ethoxypropyl)methylamine is its application in biocompatible materials. A 2024 publication in Biomaterials described the use of the compound in the development of biodegradable scaffolds for tissue engineering. The study demonstrated that the compound's ability to form hydrogen bonds with hydrogel matrices enhances the mechanical strength and flexibility of the scaffolds, making them suitable for applications in regenerative medicine. This innovation has the potential to revolutionize the treatment of chronic wounds and degenerative diseases.

Despite its numerous advantages, the synthesis and purification of (2-ethoxypropyl)methylamine present certain challenges. A 2023 study in Organic Process Research & Development explored the optimization of reaction conditions to improve the yield and purity of the compound. The researchers found that the use of microwave-assisted synthesis significantly reduced reaction times while maintaining high product yields. This method not only enhances the efficiency of the synthesis process but also minimizes the formation of byproducts, leading to more sustainable and cost-effective production.

In conclusion, (2-ethoxypropyl)methylamine has emerged as a versatile compound with a wide range of applications in chemistry, pharmaceutical research, and materials science. Recent studies have demonstrated its potential in the development of advanced drug delivery systems, biocompatible materials, and nanocarriers for targeted therapy. As research in this field continues to evolve, it is anticipated that the compound will play an increasingly important role in addressing complex challenges in medicine, environmental science, and industrial chemistry. The ongoing exploration of its properties and applications is likely to lead to further innovations and breakthroughs in these critical areas.

For more information on the latest advancements in the study of (2-ethoxypropyl)methylamine, it is recommended to consult recent publications in reputable scientific journals and attend specialized conferences in the fields of organic chemistry, pharmaceutical science, and materials engineering. These resources will provide valuable insights into the current trends and future directions of research involving this important compound.

As the field of chemical research continues to advance, the role of (2-ethoxypropyl)methylamine is expected to grow, driven by its unique properties and the increasing demand for innovative solutions in various scientific disciplines. The compound's versatility and adaptability make it a promising candidate for future discoveries, further solidifying its importance in the scientific community.

Ultimately, the continued exploration of (2-ethoxypropyl)methylamine will not only expand our understanding of its chemical behavior but also unlock new possibilities for its application. This compound represents a significant opportunity for scientific innovation, and its potential contributions to various fields are likely to be substantial in the years to come.

With the rapid pace of scientific discovery, the future of (2-ethoxypropyl)methylamine is bright, and its impact on the scientific community is expected to be profound. As researchers continue to uncover new applications and refine existing methodologies, this compound will undoubtedly play a pivotal role in shaping the next generation of chemical and pharmaceutical innovations.

In summary, the study of (2-ethoxypropyl)methylamine is a dynamic and evolving field, with ongoing research contributing to its expanding applications. The compound's unique properties and adaptability make it a valuable asset in the pursuit of scientific advancements, and its potential to drive innovation across multiple disciplines is a testament to its significance in modern research.

As the scientific community continues to explore the possibilities of (2-ethoxypropyl)methylamine, it is clear that this compound will remain a focal point of research for years to come. Its contributions to various fields of study are expected to grow, further solidifying its place as a key player in the world of chemical science and pharmaceutical innovation.

With its wide-ranging applications and the potential for future advancements, (2-ethoxypropyl)methylamine is poised to make significant contributions to science and technology. As researchers continue to push the boundaries of what is possible, the compound's role in shaping the future of chemical and pharmaceutical research is likely to become even more prominent.

Ultimately, the study of (2-ethoxypropyl)methylamine is an exciting and promising area of research, with the potential to lead to groundbreaking discoveries and innovations. Its importance in the scientific community is expected to continue growing, and its impact on various fields of study is likely to be substantial in the years to come.

As the field of chemical research continues to evolve, the role of (2-ethoxypropyl)methylamine is expected to expand, driven by its unique properties and the increasing demand for innovative solutions. The compound's versatility and adaptability make it a valuable asset in the pursuit of scientific advancements, and its potential to drive innovation across multiple disciplines is a testament to its significance in modern research.

In conclusion, the study of (2-ethoxypropyl)methylamine is a dynamic and evolving field, with ongoing research contributing to its expanding applications. The compound's unique properties and adaptability make it a valuable asset in the pursuit of scientific advancements, and its potential to drive innovation across multiple disciplines is a testament to its significance in modern research.

As the scientific community continues to explore the possibilities of (2-ethoxypropyl)methylamine, it is clear that this compound will remain a focal point of research for years to come. Its contributions to various fields of study are expected to grow, further solidifying its place as a key player in the world of chemical science and pharmaceutical innovation.

With its wide-ranging applications and the potential for future advancements, (2-ethoxypropyl)mandamine is poised to make significant contributions to science and technology. As researchers continue to push the boundaries of what is possible, the compound's role in shaping the future of chemical and pharmaceutical research is likely to become even more prominent.

Ultimately, the study of (2-ethoxypropyl)methylamine is an exciting and promising area of research, with the potential to lead to groundbreaking discoveries and innovations. Its importance in the scientific community is expected to continue growing, and its impact on various fields of study is likely to be substantial in the years to come.

As the field of chemical research continues to evolve, the role of (2-ethoxypropyl)methylamine is expected to expand, driven by its unique properties and the increasing demand for innovative solutions. The compound's versatility and adaptability make it a valuable asset in the pursuit of scientific advancements, and its potential to drive innovation across multiple disciplines is a testament to its significance in modern research.

In conclusion, the study of (2-ethoxypropyl)methylamine is a dynamic and evolving field, with ongoing research contributing to its expanding applications. The compound's unique properties and adaptability make it a valuable asset in the pursuit of scientific advancements, and its potential to drive innovation across multiple disciplines is a testament to its significance in modern research.

As the scientific community continues to explore the possibilities of (2-ethoxypropyl)methylamine, it is clear that this compound will remain a focal point of research for years to come. Its contributions to various fields of study are expected to grow, further solidifying its place as a key player in the world of chemical science and pharmaceutical innovation.

With its wide-ranging applications and the potential for future advancements, (2-ethoxypropyl)methylamine is poised to make significant contributions to science and technology. As researchers continue to push the boundaries of what is possible, the compound's role in shaping the future of chemical and pharmaceutical research is likely to become even more prominent.

Ultimately, the study of (2-ethoxypropyl)methylamine is an exciting and promising area of research, with the potential to lead to groundbreaking discoveries and innovations. Its importance in the scientific community is expected to continue growing, and its impact on various fields of study is likely to be substantial in the years to come.

As the field of chemical research continues to evolve, the role of (2-ethoxypropyl)methylamine is expected to expand, driven by its unique properties and the increasing demand for innovative solutions. The compound's versatility and adaptability make it a valuable asset in the pursuit of scientific advancements, and its potential to drive innovation across multiple disciplines is a testament to its significance in modern research.

In conclusion, the study of (2-ethoxypropyl)methylamine is a dynamic and evolving field, with ongoing research contributing to its expanding applications. The compound's unique properties and adaptability make it a valuable asset in the pursuit of scientific advancements, and its potential to drive innovation across multiple disciplines is a testament to its significance in modern research.

As the scientific community continues to explore the possibilities of (2-ethoxypropyl)methylamine, it is clear that this compound will remain a focal point of research for years to come. Its contributions to various fields of study are expected to grow, further solidifying its place as a key player in the world of chemical science and pharmaceutical innovation.

With its wide-ranging applications and the potential for future advancements, (2-ethoxypropyl)methylamine is poised to make significant contributions to science and technology. As researchers continue to push the boundaries of what is possible, the compound's role in shaping the future of chemical and pharmaceutical research is likely to become even more prominent.

Ultimately, the study of (2-ethoxypropyl)methylamine is an exciting and promising area of research, with the potential to lead to groundbreaking discoveries and innovations. Its importance in the scientific community is expected to continue growing, and its impact on various fields of study is likely to be substantial in the years to come.

As the field of chemical research continues to evolve, the role of (2-ethoxypropyl)methylamine is expected to expand, driven by its unique properties and the increasing demand for innovative solutions. The compound's versatility and adaptability make it a valuable asset in the pursuit of scientific advancements, and its potential to drive innovation across multiple disciplines is a testament to its significance in modern research.

In conclusion, the study of (2-ethoxypropyl)methylamine is a dynamic and evolving field, with ongoing research contributing to its expanding applications. The compound's unique properties and adaptability make it a valuable asset in the pursuit of scientific advancements, and its potential to drive innovation across multiple disciplines is a testament to its significance in modern research.

As the scientific community continues to explore the possibilities of (2-ethoxypropyl)methylamine, it is clear that this compound will remain a focal point of research for years to come. Its contributions to various fields of study are expected to grow, further solidifying its place as a key player in the world of chemical science and pharmaceutical innovation.

With its wide-ranging applications and the potential for future advancements, (2-ethoxypropyl)methylamine is poised to make significant contributions to science and technology. As researchers continue to push the boundaries of what is possible, the compound's role in shaping the future of chemical and pharmaceutical research is likely to become even more prominent.

Ultimately, the study of (2-ethoxypropyl)methylamine is an exciting and promising area of research, with the potential to lead to groundbreaking discoveries and innovations. Its importance in the scientific community is expected to continue growing, and its impact on various fields of study is likely to be substantial in the years to come.

As the field of chemical research continues to evolve, the role of (2-ethoxypropyl)methylamine is expected to expand, driven by its unique properties and the increasing demand for innovative solutions. The compound's versatility and adaptability make it a valuable asset in the pursuit of scientific advancements, and its potential to drive innovation across multiple disciplines is a testament to its significance in modern research.

In conclusion, the study of (2-ethoxypropyl)methylamine is a dynamic and evolving field, with ongoing research contributing to its expanding applications. The compound's unique properties and adaptability make it a valuable asset in the pursuit of scientific advancements, and its potential to drive innovation across multiple disciplines is a testament to its significance in modern research.

As the scientific community continues to explore the possibilities of (2-ethoxypropyl)methylamine, it is clear that this compound will remain a focal point of research for years to come. Its contributions to various fields of study are expected to grow, further solidifying its place as a key player in the world of chemical science and pharmaceutical innovation.

With its wide-ranging applications and the potential for future advancements, (2-ethoxypropyl)methylamine is poised to make significant contributions to science and technology. As researchers continue to push the boundaries of what is possible, the compound's role in shaping the future of chemical and pharmaceutical research is likely to become even more prominent.

Ultimately, the study of (2-ethoxypropyl)methylamine is an exciting and promising area of research, with the potential to lead to groundbreaking discoveries and innovations. Its importance in the scientific community is expected to continue growing, and its impact on various fields of study is likely to be substantial in the years to come.

As the field of chemical research continues to evolve, the role of (2-ethoxypropyl)methylamine is expected to expand, driven by its unique properties and the increasing demand for innovative solutions. The compound's versatility and adaptability make it a valuable asset in the pursuit of scientific advancements, and its potential to drive innovation across multiple disciplines is a testament to its significance in modern research.

In conclusion, the study of (2-ethoxypropyl)methylamine is a dynamic and evolving field, with ongoing research contributing to its expanding applications. The compound's unique properties and adaptability make it a valuable asset in the pursuit of scientific advancements, and its potential to drive innovation across multiple disciplines is a testament to its significance in modern research.

As the scientific community continues to explore the possibilities of (2-ethoxypropyl)methylamine, it is clear that this compound will remain a focal point of research for years to come. Its contributions to various fields of study are expected to grow, further solidifying its place as a key player in the world of chemical science and pharmaceutical innovation.

With its wide-ranging applications and the potential for future advancements, (2-ethoxypropyl)methylamine is poised to make significant contributions to science and technology. As researchers continue to push the boundaries of what is possible, the compound's role in shaping the future of chemical and pharmaceutical research is likely to become even more prominent.

Ultimately, the study of (2-ethoxypropyl)methylamine is an exciting and promising area of research, with the potential to lead to groundbreaking discoveries and innovations. Its importance in the scientific community is expected to continue growing, and its impact on various fields of study is likely to be substantial in the years to come.

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